Abstract

This project will develop new methods for imaging cocaine-induced activation in humans and in rats using functional magnetic resonance imaging (fMRI) techniques. These techniques have the potential for analyzing non-invasively both direct vascular and euphoric responses, as well as drug-dependent behavior such as craving, with unprecedented temporal and spatial resolution. However, while fMRI has been very successful in its preliminary applications of mapping primary sensory cortices, studies of sub-cortical structures have been less fruitful. Since these sub-cortical structures appear key to understanding the physiology of drug-dependent behavior, our proposed work seeks to extend fMRI imaging sequences, map generation, and analysis techniques to optimize the detection of cocaine-induced activation. These methods address the specific issues that make fMRI unique among functional neuroimaging modalities: the mixture of sequence-dependent functional weightings available, the high spatial and temporal resolution feasible, and the unique statistical characteristics of the functional MR data. By combining novel imaging and analysis techniques, we thus seek to establish functional MR imaging as a rigorous methodology for the study of drug response and drug-dependent behavior in humans.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Program Projects (P01)
Project #
5P01DA009467-03
Application #
5209759
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
3
Fiscal Year
1996
Total Cost
Indirect Cost

  Publications

Makris, N; Kennedy, D N; Boriel, D L et al. (2010) Methods of MRI-based structural imaging in the aging monkey. Methods 50:166-77
Kennedy, David N; Haselgrove, Christian; Makris, Nikos et al. (2010) WebParc: a tool for analysis of the topography and volume of stroke from MRI. Med Biol Eng Comput 48:215-28
Liu, Christina H; Greve, Doug N; Dai, Guangping et al. (2007) Remifentanil administration reveals biphasic phMRI temporal responses in rat consistent with dynamic receptor regulation. Neuroimage 34:1042-53
Choi, Ji-Kyung; Mandeville, Joseph B; Chen, Y Iris et al. (2006) High resolution spatial mapping of nicotine action using pharmacologic magnetic resonance imaging. Synapse 60:152-7
Choi, Ji-Kyung; Chen, Y Iris; Hamel, Edith et al. (2006) Brain hemodynamic changes mediated by dopamine receptors: Role of the cerebral microvasculature in dopamine-mediated neurovascular coupling. Neuroimage 30:700-12
Chen, Yin-Ching I; Choi, Ji-Kyung; Andersen, Susan L et al. (2005) Mapping dopamine D2/D3 receptor function using pharmacological magnetic resonance imaging. Psychopharmacology (Berl) 180:705-15
Talavage, Thomas M; Edmister, Whitney B (2004) Nonlinearity of FMRI responses in human auditory cortex. Hum Brain Mapp 22:216-28
Mandeville, Joseph B; Jenkins, Bruce G; Chen, Yin-Ching I et al. (2004) Exogenous contrast agent improves sensitivity of gradient-echo functional magnetic resonance imaging at 9.4 T. Magn Reson Med 52:1272-81
Elman, Igor; Lukas, Scott E; Karlsgodt, Katherine H et al. (2003) Acute cortisol administration triggers craving in individuals with cocaine dependence. Psychopharmacol Bull 37:84-9
Zaharchuk, G; Yamada, M; Sasamata, M et al. (2000) Is all perfusion-weighted magnetic resonance imaging for stroke equal? The temporal evolution of multiple hemodynamic parameters after focal ischemia in rats correlated with evidence of infarction. J Cereb Blood Flow Metab 20:1341-51

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